phe_as <-
function(phe.gen, additive.genotypes=T,min.records=20,return.models=F,confint.level=NA, my.data, my.covariates) {
  if(!missing(my.data)) data=my.data
  if(!missing(my.covariates)) covariates=my.covariates
  #Retrieve the targets for this loop
  phe_o=phe.gen[[1]]
  phe=phe_o
  gen=phe.gen[[2]]
  gens=gen
  adjustment=phe.gen[[3]]
  #Subset the data
  d=data[,na.omit(unlist(c(gen,phe,covariates,adjustment)))]
  #Turn adjustment into a string, if not NA
  if(!is.na(adjustment[1])) {adjustment=paste(adjustment,collapse=",")}
  else {adjustment=NA_character_} #Make sure it is a character NA for aggregation
  #Alter phe_o if necessary for the regression formula
  if(suppressWarnings(!is.na(as.numeric(phe_o)))) {
    phe=paste0("pheno_",phe_o)
    names(d)[2]=phe
  }
  #Exclude the exclusions for the target phenotype
  d=d[!is.na(d[[phe]]),]
  n_no_snp=sum(is.na(d[[gen]]))
  #Exclude rows with missing data
  d=na.omit(d)
  n_total=nrow(d)
  n_cases=NA_integer_
  n_controls=NA_integer_
  allele_freq=NA_real_
  HWE_pval=NA_real_
  or=NA_real_
  se=NA_real_
  p=NA_real_
  beta=NA_real_
  type=NA_character_
  note=""
  model=NA
  model_name=sprintf("No model: %s ~ %s",phe,paste0(names(d)[-1],collapse = " + "))
  if(n_total<min.records) {
    note=paste(note,"[Error: <",min.records," complete records]")
  } else if(length(unique(na.omit(d[[phe]])))<=1 | length(unique(na.omit(d[[gen]]))) <=1) {
    note=paste(note,"[Error: non-varying phenotype or genotype]")
  } else {
    if(additive.genotypes) {
      if(class(d[[gen]]) %in% c("numeric","integer")){
        allele_freq=sum(d[[gen]])/(2*n_total)
      }
      if(class(d[[gen]]) %in% c("numeric","integer") & sum(!(na.omit(d[[gen]]) %in% 0:2))==0) {
        P=allele_freq
        Q=1-allele_freq
        AA=sum(d[[gen]]==2)
        xAA=P^2*n_total
        Aa=sum(d[[gen]]==1)
        xAa=2*P*Q*n_total
        aa=sum(d[[gen]]==0)
        xaa=Q^2*n_total
        HWE_pval=pchisq((AA-xAA)^2/(xAA)+(Aa-xAa)^2/(xAa)+(aa-xaa)^2/(xaa),1)
      } else {note=paste(note,"[Warning: Genotype is not coded 0,1,2, but additive.genotypes was TRUE.]")}
    } 
    #Check if genotype was available
    #Check if phenotype is logical (boolean)
    if(class(d[[phe]]) %in% c("logical")) {
      type = "logistic"
      #Create the logistic model
      n_cases=sum(d[[phe]])
      n_controls=n_total-n_cases
      if(n_cases<min.records|n_controls<min.records) {note=paste(note,"[Error: <",min.records," cases or controls]")}
      else {
        model = glm(as.formula(paste(phe," ~ .")), data=d, family=binomial)
        modsum= summary(model)
        model_name=paste0(as.character(terms(model))[c(2,1,3)],collapse=" ")
        #If the models did not converge, report NA values instead.
        if(model$converged) {
          #Find the rows with results that gets merged across all loops
          gen_list=grep(gen,row.names(modsum$coef))
          gens=row.names(modsum$coef)[gen_list]
          or=exp(modsum$coef[gen_list,1])
          beta=modsum$coef[gen_list,1]
          se=modsum$coef[gen_list,2]
          p=modsum$coef[gen_list,4]
        } else {
          note=paste(note,"[Error: The model did not converge]")
        }
      }
    } else {
      type = "linear"
      if(n_total<min.records) {
        note=paste(note,"[Error: <",min.records," records with phenotype and genotype]")
      } else {
        model = glm(as.formula(paste(phe," ~ .", sep="", collapse="")), data=d)
        modsum= summary(model)
        model_name=paste0(as.character(terms(model))[c(2,1,3)],collapse=" ")
        
        #If the models did not converge, report NA values instead.
        if(model$converged) {
          #Find the rows with results that gets merged across all loops
          gen_list=grep(gen,row.names(modsum$coef))
          gens=row.names(modsum$coef)[gen_list]
          beta=modsum$coef[gen_list,1]
          se=modsum$coef[gen_list,2]
          p=modsum$coef[gen_list,4]
        } else {
          note=paste(note,"[Error: The model did not converge]")
        }
      }
    }
  }
  
  output=data.frame(phenotype=phe_o,snp=gens,
                    adjustment=adjustment,
                    beta=beta, SE=se,
                    OR=or,
                    p=p, type=type,
                    n_total=n_total, n_cases=n_cases, n_controls=n_controls,
                    HWE_p=HWE_pval,allele_freq=allele_freq,n_no_snp=n_no_snp, 
                    note=note, stringsAsFactors=F)

  #Add confidence intervals if requested.
  if(!is.na(confint.level)) {
    if(!is.na(model)[1]){
      suppressMessages(conf<-confint(model,c("(Intercept)",gens),level=confint.level))
      lower=conf[-1,1]
      upper=conf[-1,2]
      if(type=="logistic") {
        lower=exp(lower)
        upper=exp(upper)
      }
    } else {
      lower=NA_real_
      upper=NA_real_
    }
    output$lower=lower
    output$upper=upper
    
    output=output[,c("phenotype","snp","adjustment","beta","SE",
                                "lower","upper","OR","p","type",
                                "n_total","n_cases","n_controls",
                                "HWE_p","allele_freq","n_no_snp","note")]
  }
  
  #If the complete models were requested, add them as well.
  if(return.models) {
    attributes(output)$model=model
    attributes(output)$model_name=model_name
  }
  attributes(output)$successful.phenotype=ifelse(is.na(p),NA,phe_o)
  attributes(output)$successful.genotype=ifelse(is.na(p),NA,gen)
  #Return this to the loop to be merged.
  output
}
